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Giant dipole resonance width as a probe for nuclear deformation at finite excitation

Published 15 May 2013 in nucl-ex and nucl-th | (1305.3360v1)

Abstract: The systematic study of the correlation between the experimental giant dipole resonance (GDR) width and the average deformation <\beta> of the nucleus at finite excitation is presented for the mass region A ~ 59 to 208. We show that the width of the GDR (\Gamma) and the quadrupole deformation of the nucleus do not follow a linear relation, as predicted earlier, due to the GDR induced quadrupole moment and the correlation also depends on the mass of the nuclei. The different empirical values of <\beta> extracted from the experimental GDR width match exceptionally well with the thermal shape fluctuation model. As a result, this universal correlation between <\beta> and \Gamma provides a direct experimental probe to determine the nuclear deformation at finite temperature and angular momentum in the entire mass region.

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